没有证据表明鸡(Gallus gallus domesticus)在对液晶显示器上呈现的自然刺激物的视觉多样性图像进行分类时具有真实世界等效性。

IF 1.9 4区 心理学 Q3 BEHAVIORAL SCIENCES
Learning & Behavior Pub Date : 2024-09-01 Epub Date: 2024-01-24 DOI:10.3758/s13420-024-00623-6
Jad Nasrini, Robert R Hampton
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引用次数: 0

摘要

类别学习通常使用类似的图像进行测试,这些图像在实验之外对受试者没有任何意义。相比之下,在自然界中,动物往往需要在蜘蛛和种子等视觉上截然不同的刺激中归纳出 "吃 "这样的行为反应。形成 "食物 "和 "捕食者 "这样的功能分类可能需要概念上的概括,而不是纯粹的知觉概括。我们训练散养的鸡根据假定的功能意义对分配到四个类别之一的图像进行分类:无生命物体、捕食者、食物和非竞争性脊椎动物。每个类别中的图像在视觉上各不相同,因此不鼓励仅凭知觉相似性进行分类。在实验 1 中,鸡将 80 幅图像分为四类。然后,在三个连续的泛化测试中,鸡分别对 80 个新的示例进行泛化。在实验 2 中,小鸡看到了新类型的图像,以测试它们的泛化是感知泛化还是功能泛化。例如,小鸡在接受了鹰和蛇的图像训练后,看到了捕食者类别中的臭鼬图像。鸡在看到这些新图像时会对捕食者和无威胁的脊椎动物做出 "捕食者 "反应,但不会对物体或食物做出反应,也不会成功泛化捕食者以外的任何类别。在实验 3 中,鸡将分形动物归类为 "食物",四只鸡中有三只将它们以前从未见过的一系列脊椎动物归类为 "捕食者",这表明鸡并没有将这些图像视为真实世界中的物体和动物。这些结果凸显了使用计算机生成的图像来评估鸡对自然刺激进行分类的局限性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
No evidence of real-world equivalence in chickens (Gallus gallus domesticus) categorizing visually diverse images of natural stimuli presented on LCD monitors.

Category learning is often tested with similar images that have no significance outside of the experiment for the subjects. By contrast, in nature animals often need to generalize a behavioral response like "eat" across visually distinct stimuli, such as spiders and seeds. Forming functional categories like "food" and "predator" may require conceptual rather than purely perceptual generalization. We trained free-range chickens to classify images assigned to one of four categories based on putative functional significance: inanimate objects, predators, food, and non-competing vertebrates. Images were visually diverse within each category, discouraging classification by perceptual similarity alone. In Experiment 1, chickens classified 80 images into four categories. Chickens then generalized to 80 new exemplars in each of three successive generalization tests. In Experiment 2, chickens saw new types of images to test whether their generalization was perceptual or functional. For example, chickens saw images of skunks for the predator category after training with images of hawks and snakes. Chickens used the "predator" response with these new images for both predators and non-threatening vertebrates, but not for objects or food, and did not successfully generalize any category other than predator. In Experiment 3, chickens categorized fractals as "food," and three of four chickens categorized a range of vertebrates they had not previously encountered as "predators," suggesting that chickens did not see the images as representing real world objects and animals. These results highlight constraints on the use of computer-generated images to assess categorization of natural stimuli in chickens.

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来源期刊
Learning & Behavior
Learning & Behavior 医学-动物学
CiteScore
2.90
自引率
5.60%
发文量
50
审稿时长
>12 weeks
期刊介绍: Learning & Behavior publishes experimental and theoretical contributions and critical reviews concerning fundamental processes of learning and behavior in nonhuman and human animals. Topics covered include sensation, perception, conditioning, learning, attention, memory, motivation, emotion, development, social behavior, and comparative investigations.
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